Stretch-activated calcium signal propagation following mechanical stimulation of focal adhesions

Warren C. Ruder; Erica D. Pratt; Nailah Z. Brandy; David A. LaVan; Philip R. LeDuc; James F. Antaki

doi:10.1115/sbc2007-176431

Stretch-activated calcium signal propagation following mechanical stimulation of focal adhesions

Warren C. Ruder, Erica D. Pratt, Nailah Z. Brandy, David A. LaVan, Philip R. LeDuc, James F. Antaki

Gastroenterology Hepatology & Nutrition

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Cells translate environmental mechanical stimuli into biochemical reactions that govern a range of cellular processes such as proliferation, death and tissue matrix remodeling. Mechanical activation of individual focal adhesions formed between the cell and its environment directly correspond to several internal responses. Intracellular calcium concentration, [Ca²⁺] _in, has been shown to profoundly change during force sensing. In order to understand this dynamic in cells, we compared calcium mobilization resulting from chemical stimulation and that resulting from mechanical stimulation. We have analyzed the response of fibroblasts to membrane displacements of over 5 μm resulting in eventual spikes in [Ca ²⁺]_in. Our data initially indicates that fibroblasts may process mechanical calcium events in unique manner in comparison to other cell types. This finding has implications in a range of fields including mechanobiology and magnetics based activation.

Original language	English (US)
Title of host publication	Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007
Publisher	American Society of Mechanical Engineers (ASME)
Pages	271-272
Number of pages	2
ISBN (Print)	0791847985, 9780791847985
DOIs	https://doi.org/10.1115/sbc2007-176431
State	Published - 2007
Event	2007 ASME Summer Bioengineering Conference, SBC 2007 - Keystone, CO, United States Duration: Jun 20 2007 → Jun 24 2007

Publication series

Name	Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007

Other

Other	2007 ASME Summer Bioengineering Conference, SBC 2007
Country/Territory	United States
City	Keystone, CO
Period	6/20/07 → 6/24/07

ASJC Scopus subject areas

Bioengineering
Mechanical Engineering

Access to Document

10.1115/sbc2007-176431

Cite this

Ruder, W. C., Pratt, E. D., Brandy, N. Z., LaVan, D. A., LeDuc, P. R., & Antaki, J. F. (2007). Stretch-activated calcium signal propagation following mechanical stimulation of focal adhesions. In Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007 (pp. 271-272). (Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007). American Society of Mechanical Engineers (ASME). https://doi.org/10.1115/sbc2007-176431

Stretch-activated calcium signal propagation following mechanical stimulation of focal adhesions. / Ruder, Warren C.; Pratt, Erica D.; Brandy, Nailah Z. et al.
Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007. American Society of Mechanical Engineers (ASME), 2007. p. 271-272 (Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Ruder, WC, Pratt, ED, Brandy, NZ, LaVan, DA, LeDuc, PR & Antaki, JF 2007, Stretch-activated calcium signal propagation following mechanical stimulation of focal adhesions. in Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007. Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007, American Society of Mechanical Engineers (ASME), pp. 271-272, 2007 ASME Summer Bioengineering Conference, SBC 2007, Keystone, CO, United States, 6/20/07. https://doi.org/10.1115/sbc2007-176431

Ruder WC, Pratt ED, Brandy NZ, LaVan DA, LeDuc PR, Antaki JF. Stretch-activated calcium signal propagation following mechanical stimulation of focal adhesions. In Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007. American Society of Mechanical Engineers (ASME). 2007. p. 271-272. (Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007). doi: 10.1115/sbc2007-176431

Ruder, Warren C. ; Pratt, Erica D. ; Brandy, Nailah Z. et al. / Stretch-activated calcium signal propagation following mechanical stimulation of focal adhesions. Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007. American Society of Mechanical Engineers (ASME), 2007. pp. 271-272 (Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007).

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abstract = "Cells translate environmental mechanical stimuli into biochemical reactions that govern a range of cellular processes such as proliferation, death and tissue matrix remodeling. Mechanical activation of individual focal adhesions formed between the cell and its environment directly correspond to several internal responses. Intracellular calcium concentration, [Ca2+] in, has been shown to profoundly change during force sensing. In order to understand this dynamic in cells, we compared calcium mobilization resulting from chemical stimulation and that resulting from mechanical stimulation. We have analyzed the response of fibroblasts to membrane displacements of over 5 μm resulting in eventual spikes in [Ca 2+]in. Our data initially indicates that fibroblasts may process mechanical calcium events in unique manner in comparison to other cell types. This finding has implications in a range of fields including mechanobiology and magnetics based activation.",

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AU - LeDuc, Philip R.

AU - Antaki, James F.

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AB - Cells translate environmental mechanical stimuli into biochemical reactions that govern a range of cellular processes such as proliferation, death and tissue matrix remodeling. Mechanical activation of individual focal adhesions formed between the cell and its environment directly correspond to several internal responses. Intracellular calcium concentration, [Ca2+] in, has been shown to profoundly change during force sensing. In order to understand this dynamic in cells, we compared calcium mobilization resulting from chemical stimulation and that resulting from mechanical stimulation. We have analyzed the response of fibroblasts to membrane displacements of over 5 μm resulting in eventual spikes in [Ca 2+]in. Our data initially indicates that fibroblasts may process mechanical calcium events in unique manner in comparison to other cell types. This finding has implications in a range of fields including mechanobiology and magnetics based activation.

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Stretch-activated calcium signal propagation following mechanical stimulation of focal adhesions

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